Expression and structure-function analysis of DE, a sperm cysteine-rich secretory protein that mediates gamete fusion

Rat sperm epididymal glycoprotein DE belongs to the cysteine-rich secretory protein (CRISP) family and participates in sperm-egg fusion through its binding to complementary sites on the egg surface. To investigate the molecular mechanisms underlying the role of DE in gamete fusion, in the present wo...

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Guardado en:
Detalles Bibliográficos
Publicado: 2002
Materias:
Epididymis
Fertilization
Fusion
Ovum
Sperm
biotin
carbohydrate
cysteine rich secretory protein
disulfide
dithiothreitol
glycoprotein de
maleimide
recombinant protein
recombinant protein de
secretory protein
thiol derivative
unclassified drug
animal cell
article
binding site
controlled study
deglycosylation
disulfide bond
drug activity
enzyme glycosylation
epididymis
female
fertility
fertilization
gamete
immunofluorescence
inhibition kinetics
male
molecular mechanics
nonhuman
priority journal
prokaryote
protein expression
rat
sperm
structure activity relation
structure analysis
Animalia
Prokaryota
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00063363_v67_n4_p1225_Ellerman
http://hdl.handle.net/20.500.12110/paper_00063363_v67_n4_p1225_Ellerman
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Rat sperm epididymal glycoprotein DE belongs to the cysteine-rich secretory protein (CRISP) family and participates in sperm-egg fusion through its binding to complementary sites on the egg surface. To investigate the molecular mechanisms underlying the role of DE in gamete fusion, in the present work we expressed DE in a prokaryotic system, and examined the relevance of carbohydrates and disulfide bonds for the biological activity of the protein. Immunofluorescence and sperm-egg fusion assays carried out in the presence of recombinant DE (recDE) revealed that this protein exhibits the ability to bind to the DE-egg binding sites and to inhibit gamete fusion, as does native DE (nDE). Comparison of the proteins indicated, however, that the inhibitory ability of recDE was significantly lower than that of nDE. This difference would not be due to the lack of carbohydrates in the bacterially expressed protein because enzymatically deglycosylated nDE was as able as the untreated protein to inhibit gamete fusion. To examine whether disulfide bridges are involved in DE activity, the presence of sulfhydryls in nDE and recDE was evaluated by the biotin-maleimide technique. Results indicated that, unlike nDE, in which all cysteines are involved in disulfide bonds, recDE contains free thiol groups. Subsequent experiments showed that reduction of nDE with dithiothreitol significantly decreased the ability of the protein to inhibit gamete fusion. Together, these results indicate that whereas carbohydrates do not have a role in DE-mediated gamete fusion, disulfide bridges are required for full biological activity of the protein. To our knowledge, this is the first study reporting the relevance of structural components for the function of a CRISP member.

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